A pressurized ventilation system for providing air to the body of an individual wearing the ventilation system to regulate the individual's body temperature is provided. The ventilation system includes the use of an air bladder defining an enclosed volume wherein there is located a plurality of channels for permitting airflow throughout the air bladder. The channels include a plurality of spaced apart apertures, which permit the escape of air out of the air bladder to the body of the individual wearing the ventilation system.
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18. A pressurized ventilation system for providing air to a body of an individual wearing the ventilation system to regulate the temperature of the body comprising:
a network of channels defining an enclosed volume formed by a first wall and a second wall, the first wall being in contact with the second wall to form the network of channels, each of the channels define a first end and a second end, the first ends of the channels being operatively joined, the second wall includes a plurality of holes to allow air to exit the network of channels, at least one opening extending between the channels and through the first and second walls.
14. A pressurized ventilation system for providing air to a body of an individual wearing the ventilation system to regulate the temperature of the body comprising:
a network of channels defining an enclosed volume formed by a first wall and a second wall, the first wall being in contact with the second wall to form the network of channels, the second wall includes a plurality of holes to allow air to exit the network of channels, at least one opening extending between the channels and through the first and second walls, and a fitting operatively connected to the network of channels for accepting pressurized air into the network of channels.
1. A pressurized ventilation system for providing air to regulate the temperature of the body of an individual wearing the ventilation system, comprising:
an air bladder defining an enclosed volume formed by a first wall and a second wall, the air bladder having a plurality of channels located between the first and second walls for permitting air flow throughout the air bladder, at least one opening extending between the channels and through the first and second walls, the channels include a plurality of apertures which extend through the first wall for permitting the escape of air out of the air bladder through the first wall, and a source of airflow for providing pressurized air to the air bladder.
2. The pressurized ventilation system of
3. The pressurized ventilation system of
4. The pressurized ventilation system of
5. The pressurized ventilation system of
6. The pressurized ventilation system of
7. The pressurized ventilation system of
8. The pressurized ventilation system of
9. The pressurized ventilation system of
10. The pressurized ventilation system of
11. The pressurized ventilation system of
13. The pressurized ventilation system of
15. The pressurized ventilation system of
16. The pressurized ventilation system of
17. The pressurized ventilation system of
19. The pressurized ventilation system of
20. The pressurized ventilation system of
21. The pressurized ventilation system of
22. The pressurized ventilation system of
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The present invention relates generally to apparel ventilation systems, and more particularly, to air bladder systems that may be incorporated with any apparel, accessory, or protective equipment to provide pressurized airflow to moderate the temperature of an individual.
Many professionals work in conditions where the usage of apparel and equipment prevent relief from extreme temperatures. For example, fire fighters and racecar drivers have to wear protective clothing that is heavy and impervious to moisture and gases. Many athletes wear heavy equipment, such as football or hockey protective gear. Such heavy equipment or protective clothing can lead to a person's body overheating.
In order to prevent overheating, ventilation systems have been developed that attempt to provide air flow to cool an individual in this type of situation. However these known systems have prohibitive drawbacks. For example, U.S. Pat. No. 4,738,119 to Zafred discloses a system, which uses high-pressure, porous tubes placed throughout insulating layers in a garment. Liquid carbon dioxide is added to the tubes, which is released in gaseous form to cool the wearer of the garment. However, the bulky tubing throughout the garment can be rigid and cause inflexibility of the garment and also discomfort for the wearer. For example, this type of tubing could injure a football player who is constantly hit and thrown to the ground. Because the tubes can be rigid and inflexible, there exists the possibility that the tubes will deteriorate and need to be replaced more often than a non-rigid type of device. In addition, the tubing and insulating layers surrounding the tubing add bulk to the cooling device creating heavier clothing and increasing the amount of cooling to be done. Further, the system does not always fit into the apparel or equipment for which the system may be required. The cooling system disclosed in Zafred also includes numerous parts, which require assembly, therefore, making it more expensive to manufacture.
Another known system is disclosed in U.S. Pat. No. 5,970,519 to Weber. The Weber patent discloses a two-layered garment for the medical profession with an outer layer being impermeable to air and an inner layer being air permeable. Air flows between the layers and reaches the body of the wearer through the inner, permeable layer. A disadvantage of this type of system is that there is no directed air flow. Additionally, if too much air is supplied to the garment, the amount of air holes throughout the garment may cause the garment to inflate, causing discomfort or inflexibility to the wearer. Also, due to the number of holes in the garment, a very large amount of air may be needed for the wearer to feel any type of cooling sensation.
Consequently, there exists a need for an apparel ventilation system that overcomes the disadvantages of the prior art.
The present invention overcomes the disadvantages of the prior art by providing a ventilation system that delivers conditioned pressurized airflow for the regulation and/or moderation of temperature of the human body. The present invention provides a ventilation system that is not thick and bulky and can, therefore, lie flat when it is not in use. The present invention also provides a ventilation system that is comfortable to the user and has good air flow characteristics. The present invention further provides a ventilation system that has fewer parts and solid fittings, a simpler assembly and is, therefore, less expensive to manufacture.
Briefly, the present invention is directed to a pressurized ventilation system for providing air to a body of an individual wearing the ventilation system to regulate the temperature of the body. The ventilation system may comprise an air bladder defining an enclosed volume formed by a first wall and a second wall, the air bladder having a plurality of channels located between the first and second walls for permitting air flow throughout the air bladder, the channels include a plurality of apertures which extend through the first wall for permitting the escape of air out of the air bladder through the first wall. The ventilation system also includes a device for providing pressurized air to the air bladder.
The invention will be better understood from consideration of the following description and the accompanying drawings. In the drawings, the following figures have the following general nature:
Referring to the drawings, there is shown in
As depicted, the ventilation system 10 includes an air bladder 12, which is operatively connected to a source of air flow, for example, an air compressor, which may provide warm or cool air. It will be understood by those skilled in the art that other sources of airflow may be used with the present invention. The air bladder 12 may include an inner wall 14 and an outer wall 16. The inner and outer walls 14, 16 may be placed on top of one another and welded together, preferably using radio frequency (RF) welding, to form and define a volume having a network of channels 18 within the air bladder. While thermoplastic polyurethane (TPU) is preferred to form the inner and outer walls 14, 16 of the air bladder 12, any thermoplastic or similar material that is RF weldable and impermeable to air could be used with the present invention. With the use of TPU or a similar material to form the walls, the resulting air bladder 12 is flexible and flat making the device comfortable for the wearer. In an exemplary embodiment, the thickness of each wall is about 0.018 inches. However, the thickness may vary depending on the strength of the material and the air pressure used. Preferably, each wall has a thickness within the range of about 0.018 to 0.050 inches thick.
The channels 18 permit the air provided by the air source to flow throughout the air bladder 12. As preferred, the channels are operatively joined at a central location 21 so that a single source of airflow may be used with the ventilation system to effectively warm or cool the individual. Each channel defines an end open 23 and a closed end 25. The open end is operatively connected to the central location 21 and the closed end directs the airflow out through a plurality of apertures 22. In other words, airflow from a source of air is directed from the central location to the network of channels and out through a plurality of apertures 20 to cool or warm the body. In the exemplary embodiment shown in
In one embodiment of the invention, the excess material between the channels is removed by a trim-out procedure. The removal of the excess material helps ventilate the wearer. When the excess material is removed, horizontal ribs 19 remain between the channels 18 which form at least one opening 17 between the channels 18 and the ribs 19. The horizontal ribs 19 help keep the channels from becoming twisted.
The inner wall 14, which faces the body of the wearer, contains the plurality of apertures 20 in the channels 18 through which air may escape from the air bladder 12 to reach the body of the wearer of the garment. The apertures 20 may be formed by any known manufacturing method, such as, by a hole punch. While the apertures 20 may be any size which would allow cooling or heating of the wearer of the ventilation system 10, tests have shown that to optimize the flow characteristics of the ventilation system 10, apertures of approximately 0.062 inches in diameter should be used.
As noted above, the air bladder 12 is operatively connected to a source of air flow. The outer wall 16 contains a fitting 22, which operatively connects the ventilation system 10 to an air source. It should be understood that the fitting 22 may be any valve or connection to a source of airflow that may be further used to regulate the flow of air from the air source. As depicted, the fitting 22 is a valve into which one end of a hollow barbed member may be inserted. The other end of the hollow barbed member may be inserted into tubing, which is connected directly to the air source.
To optimize the flow characteristics of the ventilation system 10, the fitting 22 should be placed in a location central to the channels 18. In the embodiment shown in
Although the present invention could be used with a number of different types of air sources,
The ventilation system 10 can be attached to a garment or equipment in a variety of ways known in the art. For example, the ventilation system 10 could be attached using hooks and loops, buttons or snaps. The ventilation system 10 could also be sewn into the garment or equipment. Those skilled in the art will recognize that other methods of attaching the ventilation system 10 to a garment or piece of equipment may be used.
It will be recognized that the illustrated embodiments can be modified in arrangement and detail without departing from the scope of the present invention. For example, in the case of firefighters or racecar drivers, a fireproofing process or material with a high melting point could be used with the invention. Therefore, to particularly point out and distinctly claim the subject matter regarded as the invention, the following claims conclude the specification.
Turner, David, Sell, Jr., James C., Belfanti, Peter, Sanchez, Sheryll
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